Gamma Knife radiosurgery of saccular aneurysms in a rabbit model.
Publication/Presentation Date
12-1-2018
Abstract
OBJECTIVEIntracranial aneurysms are vascular abnormalities associated with neurological morbidity and mortality due to risk of rupture. In addition, many aneurysm treatments have associated risk profiles that can preclude the prophylactic treatment of asymptomatic lesions. Gamma Knife radiosurgery (GKRS) is a standard treatment for trigeminal neuralgia, tumors, and arteriovenous malformations. Aneurysms associated with arteriovenous malformations have been noted to resolve after treatment of the malformation. The aim of this study was to determine the efficacy of GKRS treatment in a saccular aneurysm animal model.METHODSAneurysms were surgically produced using an elastase-induced aneurysm model in the right common carotid artery of 10 New Zealand white rabbits. Following initial observation for 4 years, each rabbit aneurysm was treated with a conformal GKRS isodose of 25 Gy to the 50% margin. Longitudinal MRI studies obtained over 2 years and terminal measures obtained at multiple time points were used to track aneurysm size and shape index modifications.RESULTSAneurysms did not rupture or involute during the observation period. Whole aneurysm and blood volume averages decreased with a linear trend, at rates of 1.7% and 1.6% per month, respectively, over 24 months. Aneurysm wall percent volume increased linearly at a rate of 0.3% per month, indicating a relative thickening of the aneurysm wall during occlusion. Nonsphericity of the average volume, aspect ratio, and isoperimetric ratio of whole aneurysm volume all remained constant. Histopathological samples demonstrated progressive reduction in aneurysm size and wall thickening, with subintimal fibrosis. Consistent shape indices demonstrate stable aneurysm patency and maintenance of minimal rupture risk following treatment.CONCLUSIONSThe data indicate that GKRS targeted to saccular aneurysms is associated with histopathological changes and linear reduction of aneurysm size over time. The results suggest that GKRS may be a viable, minimally invasive treatment option for intracranial aneurysm obliteration.
Volume
129
Issue
6
First Page
1530
Last Page
1540
ISSN
1933-0693
Published In/Presented At
Meadowcroft, M. D., Cooper, T. K., Rupprecht, S., Wright, T. C., Neely, E. E., Ferenci, M., Kang, W., Yang, Q. X., Harbaugh, R. E., Connor, J. R., & McInerney, J. (2018). Gamma Knife radiosurgery of saccular aneurysms in a rabbit model. Journal of neurosurgery, 129(6), 1530–1540. https://doi.org/10.3171/2017.6.JNS17722
Disciplines
Medicine and Health Sciences
PubMedID
29328001
Department(s)
Fellows and Residents
Document Type
Article